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Trajectory detection and feedback system

a feedback system and trajectory detection technology, applied in the field of trajectory detection and feedback system, can solve the problems of limiting the effectiveness of the device, affecting the performance of the device, and the application of the device in a manner that departs, so as to improve the shot consistency and improve the performan

Active Publication Date: 2007-02-01
PILLAR VISION
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  • Summary
  • Abstract
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  • Claims
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AI Technical Summary

Benefits of technology

[0009] This invention addresses the needs indicated above by providing a trajectory detection and feedback system. The system is capable of detecting one or more moving objects in free flight, analyzing a trajectory of each object and providing immediate feedback information to a human that has launched the object into flight. The feedback information may include one or more trajectory parameters that the human may use to evaluate their skill at sending the object along a desired trajectory. In a particular embodiment, a non-intrusive machine vision system that detects trajectories of moving objects may be used to evaluate trajectory parameters for a basketball shot at a basketball hoop by a player. The feedback information, such as a trajectory entry angle into the basketball hoop and / or an entry velocity into the hoop for the shot, may be output to the player in an auditory format using a sound projection device. The system may be operable to be set-up and to operate in a substantially autonomous manner. After the system has evaluated a plurality of shots by the player, the system may provide 1) a diagnosis of their shot consistency, 2) a prediction for improvement based upon improving their shot consistency and 3) a prescription of actions for improving their performance.
[0010] One aspect of the present invention is a device for providing trajectory detection and feedback. The device may be generally characterized as comprising: 1) one or more sensors for detecting physical information used to characterize a trajectory of an object launched along its trajectory by a human; 2) a logic device designed or configured to i) generate trajectory parameters that characterize one or more states of the object along it's trajectory from the physical information and ii) generate feedback information using the trajectory parameters; and 3) one or more feedback output mechanisms for providing the feedback information to the human. The device may be designed to detect information in a non-intrusive manner such that the one or more sensors is not located on the object, on the human or on a device attached to the human or the sensors are not noticed by the human. For ease of use, the device may be capable to be set-up and / or to operate in an autonomous manner. The feedback information may be used by the human to improve their skill at launching the object along a desired trajectory.
[0016] The feedback information may be provided to the human prior to the object reaching the end of its trajectory. For example, the object may be a basketball and the feedback information may be one of an entry angle that the basketball enters a basketball hoop and a speed that the basketball enters the basketball hoop. This feedback information may be provided to the player before the basketball reaches the basketball hoop or within a short period of time after the basketball passes through the hoop.
[0020] Another aspect of the present invention provides a device for analyzing a trajectory of a basketball, the device comprising: 1) one or more cameras for recording video frame data used to characterize a trajectory of a basketball shot by a human; 2) a logic device designed or configured to i) to receive the video frame data, ii) generate trajectory parameters that characterize one or more states of the basketball along it's trajectory and iii) generate feedback information using the trajectory parameters; and 3) one or more feedback output mechanisms for providing the feedback information to the human. The feedback information may be used by the human to improve their skill at shooting the basketball. A playing area where the basketball is shot may be one where a basketball game is normally played, such as a gymnasium, arena or outdoor basketball court. For ease of use, the device may be capable of autonomous set-up or autonomous operation.

Problems solved by technology

One drawback of these devices is that typically they are applied in a manner that departs from the actual play of the sport.
The departure from normal playing conditions can limit the effectiveness of the device.
However, these training devices are not used in the actual play of the game and can be a distraction to the player employing the device.
Thus, the player may get proficient at using the special equipment and yet not perform well when they are required to use actual equipment in actual playing conditions.
Training under these simulated conditions may not translate to performance improvement in actual playing conditions.
Further, the devices used in a special environment, are usually difficult to set-up and require another person, besides the player, to operate the device.
Another drawback of current training devices is that the player is not provided any feedback that they can use to evaluate their performance or the feedback can be quite detached from the training experience.
However, when the player is using the device improperly or training in a less than optimal manner, the devices do not provide any objective feedback that the player can use to evaluate their performance.

Method used

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Embodiment Construction

[0048] The present invention provides methods and apparatus for trajectory detection and analysis for trajectories of objects launched by a human in games of skill. One objective of the methods and apparatus is to generate feedback information that may be used by a participant in the game of skill to improve their performance at the game.

[0049] In a particular embodiment of the invention, a trajectory device is used to detect and analyze a trajectory of a basketball shot by a human and provide feedback information about the trajectory to the shooter. However, the present invention is not limited to basketball and may be applied to other games of skill that involve object being launched along a trajectory, such as soccer, golf, football, baseball, softball, tennis, volleyball, racquet ball, bowling, water-polo, lacrosse, shot-put and javelin.

[0050] In FIG. 1, a trajectory detection, analysis and feedback system using a machine vision system with a single camera to detect basketball...

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Abstract

A disclosed device provides a trajectory detection and feedback system. The system is capable of detecting one or more moving objects in free flight, analyzing a trajectory of each object and providing immediate feedback information to a human that has launched the object into flight, and / or one or more observers in the area. The feedback information may include one or more trajectory parameters that the human may use to evaluate their skill at sending the object along a desired trajectory. In a particular embodiment, a non-intrusive machine vision system that remotely detects trajectories of moving objects may be used to evaluate trajectory parameters for a basketball shot at a basketball hoop by a player. The feedback information, such as a trajectory entry angle into the basketball hoop and / or an entry velocity into the hoop for the shot, may be output to the player in an auditory format using a sound projection device. The system may be operable to be set-up and to operate in a substantially autonomous manner. After the system has evaluated a plurality of shots by the player, the system may provide 1) a diagnosis of their shot consistency, 2) a prediction for improvement based upon improving their shot consistency and 3) a prescription of actions for improving their consistency.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS [0001] This application claims priority under 35 U.S.C. §120 and is continuation-in-part of U.S. application Ser. No. 10 / 242,373, titled, “Trajectory Detection and Feedback System,” filed Sept. 11, 2002, by Marty, et al., which claimed priority under 35 U.S.C. §119(e) from co-pending U.S. Provisional Patent Application No. 60 / 323,029, filed Sep. 12, 2001, and titled “Systems and Methods for Providing Rapid Feedback on the Entry Angle and Entry Position of a Basketball into a Hoop;” from co-pending U.S. Provisional Patent Application No. 60 / 348,057, filed Jan. 11, 2002, and titled “Systems and Methods for Providing Rapid Feedback on the Entry Angle and Entry Position of a Basketball into a Hoop; and from co-pending U.S. Provisional Patent Application No. 60 / 395,875 filed Jul. 12, 2002, and titled “Systems and Methods for Providing Rapid Feedback on the Entry Angle and Entry Position of a Basketball into a Hoop; each of which is incorporated her...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A63B61/00A63BA63B63/00A63B69/00A63B69/36A63B71/06
CPCA63B24/0021A63B69/0071A63B2243/0037A63B2024/0034A63B2220/806A63B71/0605
Inventor MARTY, ALAN W.MCGHEE, RIDGEEDWARDS, THOMAS A.
Owner PILLAR VISION
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